CN107898008B - Atomizer, electronic cigarette and operation method of electronic cigarette - Google Patents

Abstract

The invention provides an atomizer. The atomizer comprises an atomizing assembly and an air inducing assembly, wherein an air inlet channel and an air outlet channel which are communicated with each other are formed in the atomizing assembly, and the air inducing assembly is used for pushing airflow in the air inlet channel. The atomizer is convenient to use and simple to operate. In addition, an electronic cigarette adopting the atomizer and an operation method of the electronic cigarette are also provided.

Description

Atomizer, electronic cigarette and operation method of electronic cigarette

Technical Field

The invention relates to the technical field of simulated smoking, in particular to an atomizer, an electronic cigarette and an operation method of the electronic cigarette.

Background

The electronic cigarette, also known as a virtual cigarette, an electronic atomizer and an electronic cigar, has the same appearance as a cigarette and the taste similar to the cigarette, and is mainly used for simulating the smoking feeling so as to stop smoking or substitute the cigarette.

Most of the existing electronic cigarettes generate smoke by heating cigarette liquid for users to use. The cigarette liquid needs a period of time from the beginning of heating to the generation of the smoke, and in the process, because the cigarette liquid is heated unevenly, the smoke liquid in individual areas is inevitably heated in advance to generate the smoke. In addition, when traditional electron smog was atomized, need press the button, then stop atomizing when the button unclamped, complex operation.

Disclosure of Invention

In view of the above, it is necessary to provide an atomizer which is convenient to use and simple to operate, and further provide an electronic cigarette using the atomizer and an operation method using the electronic cigarette.

The utility model provides an atomizer, its includes atomization component and induced air subassembly, be formed with inlet channel and the passageway of giving vent to anger of intercommunication each other in the atomization component, the induced air subassembly be used for to propelling movement air current in the inlet channel.

Further, the air flow pushed into the air inlet channel by the air inducing assembly is used for enabling the atomizing assembly to atomize smoke in advance according to the air flow before the user sucks the smoke, and the atomized smoke is stored in the smoke storage cavity for the user to suck the smoke.

Further, the induced draft assembly is disposed in the intake passage adjacent to the intake port.

The utility model provides an electronic cigarette, its includes shell, controller and as above any one the atomizer, the atomizer with the controller all accept in the shell, the atomizer with the induced air subassembly all with controller electric connection, the cigarette holder subassembly set up in the top of shell, still be provided with smog in the shell and store the chamber, smog store the chamber with air outlet channel intercommunication, the controller is used for controlling the atomizing subassembly before taking place the suction action according to smog is atomized in advance to the smog that obtains will atomize is stored and is supplied the suction in smog storage chamber.

Further, the electronic cigarette also comprises a cigarette holder component arranged at the top of the shell, and the smoke storage cavity is formed between the inner wall of the cigarette holder component and the top wall of the atomizer.

Further, the electron cigarette still includes reminds the piece and sets up sensor in the smog storage chamber, remind the piece with the sensor with controller electric connection, the sensor is used for the sensing smog parameter in the smog storage chamber is transmitted to the controller, works as when the smog parameter satisfies when the smog parameter condition of predetermineeing in the controller, the controller control remind the piece.

Further, the smoke parameter is a physical parameter, and the physical parameter is at least one of temperature, concentration, humidity, and pressure.

Further, the controller is also used for acquiring the suction interval time of the user, and controlling the atomizer to atomize before suction according to the suction interval time.

Further, the electron cigarette still includes baffle and spacing portion, the one end of baffle is connected in the electron cigarette, the baffle is used for sheltering from the outlet flue in smog storage chamber to when sheltering from the outlet flue the other end of baffle passes through spacing portion is spacing.

Furthermore, the baffle is a flexible control sheet, the flexible control sheet is electrically connected with the controller, a smoke outlet groove is formed in the flexible control sheet, and the controller is used for controlling the smoke outlet groove in the flexible control sheet to be opened or closed so that the cigarette holder is communicated with or closed to the smoke storage cavity.

An electronic cigarette operating method for use in an electronic cigarette as claimed in any one of the above, the method comprising:

pushing airflow into the air inlet channel through the air inducing assembly;

controlling, by the controller, the atomizing assembly to pre-atomize the aerosol in accordance with the airflow prior to a user puff and store the aerosol in the aerosol storage chamber for a user puff.

Further, the electronic cigarette further comprises a reminder and a sensor arranged in the smoke storage cavity, wherein the reminder and the sensor are electrically connected with the controller, the controller controls the atomizing assembly to atomize smoke in advance according to the airflow before the smoke is smoked by the user, and the electronic cigarette further comprises the following steps after the smoke is stored in the smoke storage cavity for the user to smoke: the sensor is used for detecting the smoke parameters in the smoke storage cavity, and when the smoke parameters meet the preset smoke parameter conditions, the reminding piece is used for reminding.

Further, the smoke parameter is a physical parameter, and the physical parameter is at least one of temperature, concentration, humidity, and pressure.

Further, the step of the controller controlling the atomizer to atomize to generate the smoke comprises: the controller controls the atomizer to atomize before the suction according to the suction interval time.

According to the electronic cigarette, the air inducing assembly pushes the air flow into the air inlet channel, the smoke generated by atomization of the atomizer is pushed to the smoke storage cavity, the electronic cigarette controls the atomizer to atomize the smoke in advance according to the air flow before a user sucks the smoke through the controller, the smoke is stored in the smoke storage cavity for the user to suck, and the electronic cigarette is convenient to use and simple to operate.

Drawings

The invention is further illustrated by the following figures and examples.

Fig. 1 is a schematic structural diagram of an electronic cigarette according to a first embodiment of the present invention;

figure 2 is a schematic diagram of an exploded structure of the electronic cigarette shown in figure 1;

fig. 3 is a schematic perspective view of the atomization assembly and the liquid storage tube in the electronic cigarette shown in fig. 2;

fig. 4 is a schematic perspective view of an air inducing assembly in the electronic cigarette shown in fig. 3;

figure 5 is a schematic perspective view of a mouthpiece component of the electronic cigarette shown in figure 4; and

fig. 6 is a schematic perspective view of a battery assembly in the electronic cigarette shown in fig. 5.

The reference numbers in the drawings are as follows:

electronic cigarette 100 atomizer 10 battery pack 20 housing 30

Sleeve 101 atomizing assembly 102 liquid storage tube 103 induced air assembly 104

Atomizing head 1022 for ventilating pipe 1021 of air inlet 1011 of mouthpiece component 105

Intake channel 1023 casing 1024 air vent 1025 liquid inlet hole 1026

Liquid storage chamber 1031 bottom cover 1041 motor 1042 blade 1043

Mouthpiece seat 1051 baffle 1052 mouthpiece 1053 smoke reservoir chamber 1054

Connecting part 1055, fixing part 1056, suction nozzle hole 1057 and air outlet channel 1058

Cigarette holder base 1060 cigarette holder 1061 PCB 201 electric core 202

On-off key 301 adjusting key 302 charging socket part 303 air inlet 304

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Example one

Referring to fig. 1-3, an electronic cigarette 100 is provided according to an embodiment of the present invention. The electronic cigarette 100 includes a housing 30, a nebulizer 10, a mouthpiece component 105, a controller (not shown), and a battery component 20. The atomizer 10, the controller and the battery assembly 20 are all fixedly accommodated in the housing 30, the atomizer 10 is electrically connected with the controller and the battery assembly 20, and the mouthpiece assembly 105 is arranged at the top of the housing 30.

The housing 30 is a rectangular housing, and an air inlet 304 is formed on a side wall of the housing 30. The bottom of the housing 30 is provided with a bottom cover 1041.

The atomizer 10 is housed within the housing 30 adjacent to the air inlet 304. The atomizer 10 includes a casing 101, an atomizing assembly 102, a liquid storage tube 103, and an air inducing assembly 104. The reservoir tube 103 is fixed within the housing 30. The sleeve 101 is disposed in the liquid storage tube 103, and the atomizing assembly 102 is disposed at the bottom of the sleeve 101. The induced draft assembly 104 is disposed on the casing 101 adjacent to the air inlet 304.

The sleeve 101 has a hollow cylindrical structure. In order to facilitate the entry of external air, an air inlet 1011 is formed at one side of the top of the casing 101, and the air inlet 1011 is correspondingly communicated with the air inlet 304 of the housing 30.

The atomizing assembly 102 includes an atomizing head 1022 and a vent conduit 1021, the atomizing head 1022 being disposed at a bottom portion of the casing 101. The atomizing head 1022 includes a housing 1024, a liquid absorbing member (not shown in the figure) and a heating element (not shown in the figure), the liquid absorbing member is disposed in the housing 1024, the heating element is disposed in the liquid absorbing member, the heating element is electrically connected to the controller, an atomizing cavity (not shown in the figure) is formed in an inner space of the heating element, and the smoke liquid is heated in the atomizing cavity to form smoke. At least one vent hole 1025 is formed in the top of the housing 1024 of the atomizing head 1022, and the vent hole 1025 is communicated with the air inlet hole 1011 of the sleeve 101, so that outside air enters the atomizing cavity of the atomizing head 1022 through the air inlet hole 1011 and the vent hole 1025, and is heated by the heating element to mix with generated smoke. For example, the liquid absorbing member may be one, two or a combination of two or more of ceramics, fiber ropes, porous ceramics, foamed metals or foamed graphite. The side wall of the housing 1024 defines at least one inlet 1026. The vent tube 1021 is housed in the casing 101 and the bottom of the vent tube 1021 is fixed to the atomizing head 1022. An air inlet channel 1023 is formed between the air pipe 1021 and the sleeve 101, and an air outlet channel 1058 is formed inside the air pipe 102. The air inlet channel 1023 is communicated with the air outlet channel 1058 through an atomizing head 1022. The air flow enters the atomizing head 1022 from the air inlet channel 1023 and then flows out of the air outlet channel 1058.

The liquid storage tube 103 is fixed on the housing 30 and sleeved outside the sleeve 101 and the atomizing head 1022, and a liquid storage chamber 1031 is formed between the inner wall of the liquid storage tube 103 and the outer wall of the sleeve 101. The reservoir chamber 1031 extends to one side of the atomizing head 1022. The liquid inlet 1026 of the housing 1024 of the atomizing head 1022 is communicated with the liquid storage chamber 1031, and is used for introducing the smoke liquid in the liquid storage chamber 1031 into the atomizing head 1022 for atomization, and the atomized smoke is brought into the air outlet channel 1058 through the air flow in the air inlet channel 1023.

Referring to fig. 4-5, the air inducing assembly 104 is received in the housing 30 and is mounted on the casing 101. The air inducing assembly 104 is installed in the air inlet 1011 and adjacent to the air inlet 304, the air inducing assembly 104 includes a motor 1042 and a plurality of blades 1043, the motor 1042 is installed in the air inlet 1011 of the casing 101 and electrically connected to the battery assembly 20 and the controller, and the plurality of blades 1043 are annularly installed on an output shaft of the motor 1042. The motor 1042 can drive a plurality of vanes 1043 to rotate, and air in the air inlet 304 is introduced into the air inlet 1011 and guided into the air inlet channel. It is understood that the wind inducing assembly 104 in this embodiment is a fan assembly, and in other embodiments not shown, the wind inducing assembly 104 can be other devices for generating wind by rotating the plurality of blades 1043 through the motor 1042.

Optionally, the electronic cigarette may further include a baffle 1052 and a position limiting portion, wherein one end of the baffle 1052 is connected to the electronic cigarette, the baffle 1052 is used for shielding the smoke outlet of the smoke storage chamber 1054, and the other end of the baffle 1052 is limited by the position limiting portion when the smoke outlet is shielded. The baffle 1052 can be fixedly connected to the electronic cigarette by means of a hinge, a bolt, or the like. In practical implementation, the baffle 1052 may be a part of the mouthpiece component 105, that is, the mouthpiece component 105 includes a mouthpiece holder 1051, a mouthpiece 1053 and the baffle 1052, the mouthpiece holder 1051 is substantially L-shaped, the mouthpiece holder 1051 is disposed on the top of the housing 30, the mouthpiece holder 1051 includes a connecting portion 1055 and a fixing portion 1056, the connecting portion 1055 is received in the housing 30 and is sleeved on the top end of the atomizing component 102, the top of the sleeve 101 is inserted into the connecting portion 1055 and screwed onto the connecting portion 1055, and the top of the sleeve 101 protrudes outside the top of the connecting portion 1055. The fixing portion 1056 is engaged with the top of the housing 30. The suction nozzle 1053 is engaged with the housing 30 through a connecting portion 1055. It will be appreciated that in other embodiments, not shown, the suction nozzle 1053 may also be removably coupled to the housing 30 by a threaded connection, magnetic coupling, bayonet connection, or the like. The suction nozzle 1053 includes a mouthpiece body 1060 connected to the connecting portion 1055, and a nozzle portion 1061 provided on the mouthpiece body 1060, and allows the mouthpiece portion 1061 to directly suck the smoke when the user sucks the smoke. Alternatively, the aerosol storage chamber 1054 may be disposed between an inner wall of a mouthpiece component and a top wall of an atomizer, and further may be disposed between a bottom wall of the mouthpiece housing 1060 and a top of the connecting portion 1055, the air outlet channel being in communication with the top of the aerosol storage chamber 1054. A nozzle hole 1057 is opened in the nozzle portion 1061, and the nozzle hole 1057 is communicated with the smoke storage chamber 1054. The baffle 1052 is disposed at the bottom of the suction nozzle 1061, the baffle 1052 and the fixing portion 1056 are spaced from each other, one end of the baffle 1052 is rotatably disposed on the suction nozzle 1053 and is blocked in the suction nozzle hole 1057, and a limiting portion (not shown) is disposed in the mouthpiece base 1060, the limiting portion is disposed adjacent to the suction nozzle hole 1057, and is used to limit a rotation angle/a rotation range of the baffle.

When a user sucks, air is mixed with smoke in the atomizing cavity of the atomizing head 1022 through the air inlet 1011 and the air inlet channel 1023 in sequence, the smoke enters the smoke storage cavity 1054 through the air outlet channel 1058, at the moment, the suction force of the user is greater than the resistance force of the baffle 1052, the baffle 1052 is enabled to move upwards, the suction nozzle hole 1057 is communicated with the cigarette holder 1061, and the smoke is sucked by the user through the cigarette holder 1061; and when the user stops sucking, the baffle 1052 is gravitationally downward and the baffle 1052 blocks the mouthpiece aperture 1057.

It is understood that in other embodiments, not shown, the baffle 1052 may be a flexible control plate, the flexible control plate is electrically connected to the controller, a smoke outlet slot (not shown) is opened on the flexible control plate, when the controller senses that the user starts to suck, the controller controls the smoke outlet slot to be opened, so that the suction nozzle hole 1057 is communicated with the cigarette holder 1061, and when the controller senses that the user stops sucking, the controller controls the smoke outlet slot to be closed, so that the suction nozzle hole 1057 is closed with the cigarette holder 1061.

The atomizer 10 further comprises a temperature sensor (not shown) arranged in the smoke storage chamber 1054, the temperature sensor is electrically connected with the battery assembly 20 and the controller, the temperature sensor is used for detecting the temperature of smoke, a first preset value is arranged in the controller, the first preset value represents the temperature of the smoke when the smoke liquid is sufficiently atomized, the smoke temperature value detected by the temperature sensor is compared with the first preset value in the controller, when the temperature sensor reaches the first preset value, the controller displays reminding information to a user to remind the user of sucking, understandably, in other implementation modes not shown, the controller can remind the user of sucking by means of vibration, audio and other modes.

It is understood that the first preset value may be pre-stored in the controller by the manufacturer, or may be input into the controller by the user according to the actual use experience of the user. It will be appreciated that the temperature of the smoke, the user desired smoke temperature, and the manufacturer recommended smoke temperature are not necessarily equal to each other when the liquid has been atomized sufficiently. For example, the temperature of the smoke is 60 ℃ when the liquid has been sufficiently atomized, and since the user feels that he or she feels the best mouth feel when smoking at 50 ℃, the user's desired smoke temperature is 50 ℃ and the user can set the first preset value to 50 ℃.

It will be appreciated that in other embodiments not shown, other sensors may be provided to detect other physical quantities of smoke in addition to the temperature of the smoke and compare them to determine whether the user is drawing.

For example, the relevant physical quantity is the humidity of the smoke, the humidity sensor may be electrically connected to the controller instead of the temperature sensor, and accordingly, the first preset value is a humidity value, which may be any one of the humidity of the smoke when the liquid smoke is sufficiently atomized, the humidity of the smoke desired by the user, and the humidity of the smoke recommended by the manufacturer. The humidity sensor detects the humidity of the smoke and feeds the humidity back to the controller, the controller compares the humidity of the smoke fed back by the humidity sensor with a first preset value, when the humidity of the smoke reaches the first preset value, the controller displays reminding information to a user to remind the user of suction, and understandably, in other implementation modes which are not shown, the controller can remind the user of suction through vibration generation and other modes.

For another example, the relevant physical quantity is the concentration of smoke, and the concentration sensor may be electrically connected to the controller instead of the temperature sensor. Accordingly, the first preset value is a concentration value, and may be any one of a concentration of smoke when the liquid smoke has been sufficiently atomized, a user-desired smoke concentration, and a factory-recommended smoke concentration. The concentration sensor detects the concentration of the smoke and feeds the concentration of the smoke back to the controller, the concentration of the smoke fed back by the concentration sensor of the controller is compared with the first preset value, when the concentration of the smoke reaches the first preset value, the controller displays reminding information to a user to remind the user of suction, and in other implementation modes which are not shown, the controller can remind the user of suction through vibration and the like.

In this embodiment, a second preset value may be further prestored in the controller, where the second preset value is greater than the first preset value, the controller compares the temperature of the smoke with the second preset value, and when the temperature of the smoke reaches the second preset value, the controller controls the battery to stop supplying power to the atomizer 10, so as to prevent the temperature of the atomization chamber from continuously increasing, and the smoke is excessively atomized, that is, the reasonable suction temperature is between the first preset value and the second preset value. Through this controller, avoided the user to inhale smog under the circumstances of not fully atomizing or atomizing excessively. It is to be understood that, in other embodiments, when the detected relevant physical quantity is the smoke concentration, the second preset value may also be set to control the smoke concentration between the first preset value and the second preset value, so as to prevent the smoke from being too dilute or too concentrated.

Optionally, the controller may further acquire a puff interval time of the user, and control the nebulizer to generate the aerosol before the user puffs according to the acquired puff interval time. In practical implementation, the electronic cigarette may further include a memory, the memory stores the smoking interval time, and the stored smoking interval time may be obtained by counting the smoking habits of the user by other devices and sent to the electronic cigarette for storage, or may be obtained by the counting module in the electronic cigarette according to the statistics of the smoking habits of the user and stored, which is not limited to this. Alternatively, the controller may control the nebulizer to start nebulization at a preset time before the next puff according to the puff interval time. The preset time may be a default time in the electronic cigarette, or a time length calculated by the electronic cigarette according to the currently set atomization power and the capacity of the smoke storage chamber, for example, when the electronic cigarette is atomized according to the current atomization power, the atomized smoke amount per second is 2ml, and the capacity of the smoke storage chamber is 10ml, and the preset time length may be 5 s. For example, the obtained smoking interval time of the user is t1, the time length of the aerosol generated by the atomizer 10 according to the habitual interval t1 is t2, and the statistical module transmits t1 and t2 to the storage module for storage. The controller controls the atomizer 10 to atomize automatically in a time period t2 according to the user habit information such as t1 and t2 in the storage module, namely when the suction reaches t2 before reaching, so as to avoid the problem that after intermediate atomization, the atomizer 10 needs to atomize again due to condensation caused by long-time non-suction, and when the smoking process is finished, other stop keys are pressed or pressed, so that the operation is simple.

Referring to fig. 6, the battery assembly 20 includes a PCB 201 (flexible CIRCUIT BOARD) accommodated in one side of the housing 30, and a battery cell 202 electrically connected to the PCB 201.

The PCB board 201 is substantially L-shaped and located on one side of the sleeve. The controller, the heating element, the bottom cover 1041 and the temperature sensor are all electrically connected to the PCB 201.

Shell 30 can be dismantled with cigarette holder pedestal 1060 and be connected, one side of shell 30 be equipped with respectively with electric core 202 electric connection's on & off switch 301, adjustment key 302, charging socket portion 303 and warning piece (not shown in the figure), warning piece and controller electric connection, when the temperature of smog reachs first default, the controller shows warning information to the user through reminding the piece, remind the user can aspirate, can understand, in other implementation modes not shown, remind the piece for vibrations, pronunciation remind the piece or show and remind the device that the piece etc. is used for reminding the user to aspirate. For example, the reminder may be configured to flash a green light or sound a reminder, although in other embodiments not shown, the reminder may alert the user to the puff by, for example, generating a shock.

During assembly, the battery cell 202 is installed on one side of the housing 30 far away from the air inlet 304, the atomizer 10 is installed on one side of the housing 30 far away from the battery cell 202, the air inlet 1011 corresponds to the air inlet 304, the inner cavity of the air inlet 304 is communicated with the air inlet 1011, the induced air assembly 104 is installed on one side of the air inlet channel close to the air inlet 1011, the cigarette holder assembly 105 is arranged on the top end of the atomizer 10, and the suction nozzle 1053 is clamped with the housing 30 through the connecting portion 1055.

When the switch is turned on and off lightly, the battery pack 20 supplies power to the motor 1042, the blade 1043 on the side close to the air inlet 1011 rotates, meanwhile, the battery pack 20 supplies power to the atomizer, the temperature in the atomizing cavity gradually rises, smoke liquid in the atomizing cavity is heated to generate smoke, the smoke enters the smoke storage cavity 1054 along with the air flow, at the moment, a temperature sensor or other sensors for detecting related physical quantities of the smoke in the smoke storage cavity 1054 detect related physical quantities of the smoke in real time and feed the related physical quantities back to the controller, a first preset value is stored in the controller in advance, the controller compares the related physical quantities of the smoke such as the temperature fed back by the temperature sensor or other sensors for detecting the related physical quantities of the smoke with the first preset value, and when the related physical quantities of the smoke such as the temperature reach the first preset value, the controller displays reminding information to a user through a reminding piece, remind the user to aspirate, when the user inhales, smog flows out, prevents that smog from flowing by oneself and causing waste and heat to scatter and disappear, has avoided the user to inhale smog under the circumstances of insufficient atomization or atomizing excessively. When a user sucks through the cigarette holder, the controller detects that the user starts sucking, the motor 1042 is controlled to stop working, at the moment, air is mixed with smoke in the atomizing cavity through the air inlet 1011 and the air inlet channel (the arrow direction in the figure is an air flow channel) in sequence, the smoke enters the smoke storage cavity 1054 through the air outlet channel 1058, at the moment, the suction force of the user is larger than the resistance force of the baffle 1052, the baffle 1052 is opened upwards, the suction nozzle hole 1057 is communicated with the cigarette holder 1061, and the smoke is sucked by the user through the cigarette holder 1061; and when the user stops the suction, the baffle 1052 blocks the mouthpiece hole 1057 due to the downward gravity of the baffle 1052. In addition, a second preset value can be prestored in the controller, the second preset value is larger than the first preset value, the controller compares the temperature and other related physical quantities of the smoke with the second preset value, and when the temperature and other related physical quantities of the smoke reach the second preset value, the controller controls the battery to stop supplying power to the atomizer 10, so that the temperature of the atomization cavity is prevented from continuously rising, the smoke liquid is excessively atomized, and the effect of protecting the atomizer is indirectly achieved. The electronic cigarette 100 is only required to be opened after being pressed for the first time, the atomizer 10 can also control the time length of smoke atomization according to the smoking habit of the user and the habitual interval of the user during smoking, so that automatic atomization is realized, the electronic cigarette 100 has other selectable modes, and the user can enjoy different smoking experiences in other modes.

Example two

The second embodiment of the present invention provides an operation method of an electronic cigarette 100: the method comprises the following steps:

pushing airflow into the air intake channel 1023 through the induced draft assembly 104; the atomizer assembly 102 is controlled by the controller to pre-atomize the aerosol in accordance with the airflow prior to inhalation by the user and store the aerosol in the aerosol storage chamber 1054 for inhalation by the user.

The electronic cigarette further comprises a reminder and a sensor arranged in the smoke storage chamber 1054, wherein the reminder and the sensor are electrically connected with the controller, the controller controls the atomizing assembly to atomize smoke in advance according to the airflow before the smoke is smoked by a user, and the electronic cigarette further comprises the following steps after the smoke is stored in the smoke storage chamber 1054 for the user to smoke: by detecting the smoke parameter in the smoke storage chamber 1054 by the sensor, it is understood that in other embodiments not shown, the smoke parameter may be a physical parameter, and the physical parameter includes a temperature, a concentration, a humidity, or a pressure, and the like, and when the smoke parameter satisfies a preset smoke parameter condition, the alarm is given by the alarm.

The step of the controller controlling the atomizer to atomize to generate the smoke comprises: the controller controls the atomizer to atomize according to preset user smoking habit parameters to generate smoke.

The preset user smoking habit parameter is a smoking interval time parameter, and the smoking interval time parameter is obtained through the following steps:

a statistical module in the controller counts the pumping interval time of the user; and

a storage module within the controller stores the puff interval time within the statistics module.

The above examples only express embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (11)

1. An electronic cigarette, characterized in that: including shell, controller and atomizer, the atomizer includes atomization component and induced air subassembly, be formed with the inlet channel and the outlet channel of mutual intercommunication in the atomization component, the induced air subassembly be used for to propelling movement air current in the inlet channel, the atomizer with the controller all accept in the shell, the atomizer with the induced air subassembly all with controller electric connection, still be provided with smog in the shell and store the chamber, smog store the chamber with outlet channel intercommunication, the controller is used for control the atomization component is according to before taking place the suction action the air current atomizes smog in advance to the smog that obtains with atomizing is stored and is supplied the suction in smog storage chamber.

2. The electronic cigarette of claim 1, wherein: the electronic cigarette further comprises a cigarette holder component arranged at the top of the shell, and the smoke storage cavity is formed between the inner wall of the cigarette holder component and the top wall of the atomizer.

3. The electronic cigarette of claim 2, wherein: the electronic cigarette further comprises a reminding piece and a sensor arranged in the smoke storage cavity, the reminding piece is electrically connected with the sensor, the sensor is used for sensing smoke parameters in the smoke storage cavity and transmitting the smoke parameters to the controller, and when the smoke parameters meet preset smoke parameter conditions in the controller, the controller controls the reminding piece to remind.

4. The electronic cigarette of claim 3, wherein the smoke parameter is a physical parameter, the physical parameter being at least one of temperature, concentration, humidity, and pressure.

5. The electronic cigarette of claim 1, wherein: the controller is also used for acquiring the suction interval time of a user and controlling the atomizer to atomize before suction according to the suction interval time.

6. The electronic cigarette of claim 1, wherein: the electronic cigarette further comprises a baffle and a limiting portion, one end of the baffle is connected to the electronic cigarette, the baffle is used for shielding the smoke outlet of the smoke storage cavity, and the other end of the baffle passes through the limiting portion to be limited when the smoke outlet is shielded.

7. The electronic cigarette of claim 6, wherein: the cigarette holder is characterized in that the baffle is a flexible control sheet, the flexible control sheet is electrically connected with the controller, a cigarette outlet groove is formed in the flexible control sheet, and the controller is used for controlling the cigarette outlet groove in the flexible control sheet to be opened or closed so as to enable the cigarette holder to be communicated with or closed to the cigarette storage cavity.

8. An electronic cigarette operating method, for use in an electronic cigarette according to any one of claims 1-7, the method comprising:

pushing airflow into the air inlet channel through the air inducing assembly;

controlling, by the controller, the atomizing assembly to pre-atomize the aerosol in accordance with the airflow prior to a user puff and store the aerosol in the aerosol storage chamber for a user puff.

9. The method of operating an electronic cigarette according to claim 8, wherein the electronic cigarette further comprises a reminder and a sensor disposed in the smoke storage chamber, the reminder and the sensor being electrically connected to the controller, the controller controlling the atomizer assembly to pre-atomize the smoke according to the airflow before the user draws the smoke, and the step of storing the smoke in the smoke storage chamber for the user to draw the smoke further comprises: the sensor is used for detecting the smoke parameters in the smoke storage cavity, and when the smoke parameters meet the preset smoke parameter conditions, the reminding piece is used for reminding.

10. The method of operating an electronic cigarette of claim 9, wherein the smoke parameter is a physical parameter, the physical parameter being at least one of temperature, concentration, humidity, and pressure.

11. The method of operating an electronic cigarette of claim 8, wherein the step of the controller controlling the atomizer to atomize to generate the aerosol comprises: the controller is also used for acquiring the suction interval time of a user, and the controller controls the atomizer to atomize before suction according to the suction interval time.

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